ABCA4 p.Arg152*

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PMID: 22247458 [PubMed] Cideciyan AV et al: "Macular function in macular degenerations: repeatability of microperimetry as a potential outcome measure for ABCA4-associated retinopathy trials."
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42 Clinical and Molecular Characteristics of the ABCA4 Patients Patient Age (y)/Sex ABCA4 Mutation Clinical Diagnosis Visual Acuity* Kinetic Visual Field Extent (V-4e)†Allele 1 Allele 2 Foveal Fixation P1‡ 12/M N965S W821R STGD 20/20 97 P2‡ 17/F V989A IVS28ϩ5 GϾT STGD 20/100 90 P3 18/M G1961E R1129L§ STGD 20/100 105 P4 21/F R212C P68R STGD 20/125 101 P5 24/M P1511 del1ccgC R1705Q STGD 20/25 114 P6 31/M G863A R1108C STGD 20/25 105 P7 32/F IVS40ϩ5 GϾA V935A STGD 20/32 103 P8 34/M G1961E - CRD 20/32 98 P9 37/F R681X P309R STGD 20/20 109 P10 39/M G1961E C54Y§ STGD 20/40 101 P11‡ 42/F G1961E V256V STGD 20/32 105 P12‡ 46/F G1961E V256V STGD 20/32 106 P13 52/F G1961E P1380L STGD 20/40 105 P14 58/M D600E R18W§ STGD 20/40 84 Extrafoveal Fixation P15 11/M V256V T1526M CRD 20/200 102 P16 15/M C54Y IVS35ϩ2 TϾC STGD 20/200 96 P17‡ 16/F V989A IVS28ϩ5 GϾT STGD 20/100 100 P18‡ 16/M N965S W821R STGD 20/125 100 P19 19/F A1038V/L541P N965S STGD 20/400 90 P20 21/M G863A IVS35ϩ2 TϾC STGD 20/200 99 P21 22/F G1961E R152X STGD 20/50 104 P22 27/M G863A P1660S§ STGD 20/100 98 P23 27/F G1961E A1038V/L541P STGD 20/100 109 P24 29/M G1961E T1019M STGD 20/100 104 P25 33/M P1486L deletion of exon 7 STGD 20/400 98 P26 36/F G863A C1490Y STGD 20/100 93 P27 41/M A1038V/L541P - STGD 20/125 108 P28 49/F T1526M R2030Q STGD 20/125 98 P29 55/F W855X - STGD 20/160 87 P30 56/F G1961E IVS37ϩ1 GϾA§ STGD 20/125 89 P31 60/F G1961E M669 del2ccAT STGD 20/125 104 STGD, Stargardt disease; CRD, cone-rod dystrophy.
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ABCA4 p.Arg152* 22247458:42:1120
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ABCA4 p.Arg152* 22247458:42:1129
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PMID: 19365039 [PubMed] Roberts LJ et al: "Clinical utility of the ABCR400 microarray: basing a genetic service on a commercial gene chip."
No. Sentence Comment
31 Diagnostic Assays Performed for Verification and Cosegregation Analysis of Mutations Identified Using the ABCR400 Microarray Mutation and Exon Primer 5؅-3؅ PCR Condition Diagnostic Assay C1490Y; exon 30 Forward: 5ЈGTCAGCAACTTTGAGGCTG 3Ј; Reverse: 5ЈTCCCTCTGTGGCAGGCAG 3Ј 25 Cycles at 60°C Verification and cosegregation studies: Rsa I digest R602W; exon13 Forward: 5ЈAGCTATCCAAGCCCGTTCC 3Ј; Reverse: 5ЈCCATTAGCGTGTCATGGAG 3Ј 25 Cycles at 60°C Verification and cosegregation studies: Msp I digest L2027F; exon 44 Forward: 5ЈGAAGCTTCTCCAGCCCTAGC 3Ј; Reverse: 5ЈTGCACTCTCATGAAACAGGC 3Ј 28 Cycles at 60°C Verification and cosegregation studies: Fnu4H I digest V256V; exon 6 Forward: 5ЈGGTGTCTTTCCTACCACAG 3Ј; Reverse: 5ЈAGGAATCACCTTGCAATTGG 3Ј 30 Cycles at 55°C Verification: direct sequencing using forward primer Cosegregation: dHPLC analysis IVS38-10TϾC; exon 39 Forward: 5ЈGCCCCACCCGCTGAAGAG 3Ј; Reverse: 5ЈTCCCAGCTTTGGACCCAG 3Ј 30 Cycles at 55°C Verification and cosegregation studies: direct sequencing using reverse primer G863A; exon 17 Forward: 5ЈCTGCGGTAAGGTAGGATAGGG 3Ј; Reverse: 5ЈCACACCGTTTACATAGAGGGC 3Ј; G863A-RevC: 5ЈTTTTTGAAGTGGGGTTCCATAGTCAG 3Ј; G863A-RevG: 5ЈGCGTGCTTGGGGTATGAAGTGGGGTTCCATAGTCAC 3Ј 28 Cycles at 60°C Verification: direct sequencing using reverse primer. Cosegregation: allele-specific PCR, with G863A-RevC and G863A-RevG R152X and R152Q; exon 5 Forward: 5ЈGACCCATTTCCCCTTCAAC 3Ј; Reverse: 5ЈAGGCTGGGTGCTTCCCTC 3Ј; R152X-RevT: 5ЈTTAAAAAACGCTCTGTCATACATCTTTCAAGATATCCCTTATTCA 3Ј; R152X-RevC: 5ЈATCTTTCAAGATATCCCTTATTCG 3Ј 28 Cycles at 60°C Verification: direct sequencing using reverse primer. Cosegregation studies (R152Q): direct sequencing using reverse primer Cosegregation studies (R152X): allele-specific PCR with R152X-RevT and R152X-RevC P1380L; exon 28 Forward: 5ЈCCACCAGGGGCTGATTAG 3Ј; Reverse: 5ЈCCCAAACCCACAGAGGAG 3Ј 28 Cycles at 55°C Verification and cosegregation studies: Nci I digest N965S; exon 19 Forward: 5ЈTGGGGCCATGTAATTAGGC 3Ј; Reverse: 5ЈTGGGAAAGAGTAGACAGCCG 3Ј 28 Cycles at 58°C Verification and cosegregation studies: direct sequencing using forward primer G1961E; exon 42 Forward: 5ЈGTCACAGTTCTCAGTCCGG 3Ј; Reverse: 5ЈGGAGGAGAGGCAGGCAC 3Ј 28 Cycles at 60°C Verification and cosegregation studies: direct sequencing using reverse primer Rare mutations Previously published primers,8,9 except exon 14 forward: 5`CCTGTTTTCCTTTCCCTCCATC 3Ј; exon 14 reverse: 5ЈTCTTTGAGTGTCTCCCACGTTG 3Ј; exon 24 forward: 5`ATGTGTTGACTACACTTGGCAG 3Ј; exon 24 reverse: 5ЈGCATCACAACAGGACACACC 3Ј Various Verification and cosegregation analysis: direct sequencing using primer farthest from mutation Abbreviations: dHPLC, denaturing high-performance liquid chromatography; PCR, polymerase chain reaction.
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ABCA4 p.Arg152* 19365039:31:1563
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ABCA4 p.Arg152* 19365039:31:1569
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ABCA4 p.Arg152* 19365039:31:1680
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ABCA4 p.Arg152* 19365039:31:1686
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ABCA4 p.Arg152* 19365039:31:1756
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ABCA4 p.Arg152* 19365039:31:1762
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ABCA4 p.Arg152* 19365039:31:1979
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ABCA4 p.Arg152* 19365039:31:1986
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ABCA4 p.Arg152* 19365039:31:2012
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ABCA4 p.Arg152* 19365039:31:2019
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ABCA4 p.Arg152* 19365039:31:2027
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ABCA4 p.Arg152* 19365039:31:2034
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PMID: 19074458 [PubMed] Cideciyan AV et al: "ABCA4 disease progression and a proposed strategy for gene therapy."
No. Sentence Comment
53 For example, P10 (R152X/IVS38-10T.C) progressed from normal sensitivity (5.5 dB loss) at age 11 to a dramatically abnormal sensitivity (30.9 dB loss) at age 29.
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ABCA4 p.Arg152* 19074458:53:18
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134 Unrelated individuals P11 and P12 had the same pair of mutant alleles, R152X and G1961E.
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ABCA4 p.Arg152* 19074458:134:71
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153 c Nt, amino-terminal domain; ECD-1 and ECD-2, exocytoplasmic domains 1 and 2; NBD-1 and NBD-2, nucleotide binding domains 1 and 2; TM5, TM6, TM7, TM12, within, near or between transmembrane helices 5, 6, 7 and 12. d W41X, R152X, Y245X, Y362X, W663X, M669del2tccAT, R681X and A1739 del11gcTGGGCTGGTGG. retina-wide blindness, the quality of life deteriorates dramatically with loss of mobility and independence.
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ABCA4 p.Arg152* 19074458:153:222
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PMID: 17325136 [PubMed] Valverde D et al: "Spectrum of the ABCA4 gene mutations implicated in severe retinopathies in Spanish patients."
No. Sentence Comment
88 In family ADDM-92, we detected the mutation I156V, which has been associated with a STGD recessive phenotype.21 The R152X mutation (located in exon 5, close to I156V) was present in a family with dominant STGD that demonstrated genetic linkage to the STGD region on 6q. FIGURE 2.
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ABCA4 p.Arg152* 17325136:88:116
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86 In family ADDM-92, we detected the mutation I156V, which has been associated with a STGD recessive phenotype.21 The R152X mutation (located in exon 5, close to I156V) was present in a family with dominant STGD that demonstrated genetic linkage to the STGD region on 6q. FIGURE 2.
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ABCA4 p.Arg152* 17325136:86:116
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PMID: 15161829 [PubMed] September AV et al: "Mutation spectrum and founder chromosomes for the ABCA4 gene in South African patients with Stargardt disease."
No. Sentence Comment
7 The most common variants identified included the C1490Y, L2027F, R602W, V256splice, R152X, and 2588G3C mutations.
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ABCA4 p.Arg152* 15161829:7:84
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71 List of 16 Different Potential Disease-Associated Sequence Variants Identified in 64 SA Subjects with arSTGD Nucleotide Change Amino Acid Change Families (N ‫؍‬ 64) Exon Reference C454T R152X 4 5 3,33 G455A R152Q 1 5 35 C634T R212C 1 6 16,27 G768T (Splice donor) V256splice 5 6 15 C1885T R602W 6 13 9 2588G3C G863A 4 17 8 T3047C V989A 1 20 11 T4319C F1440S 1 29 9 G4328A* R1443H 1 29 This study G4469A C1490Y 19 30 15,9 G5077A V16931 1 36 36 C6079T L2027F 8 44 8 C6088A R2030X 1 44 9,37 C6112T R2038W 2 44 5 IVS45ϩ7G3A Splice donor 1 45 26 6352⌬A* Frameshift 1 46 This study No individuals positive for the R1443H variant were identified in 47 control individuals of Indian ancestry.
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ABCA4 p.Arg152* 15161829:71:206
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90 Individual 105.1 was heterozygous for two different mutations, the V256splice variant and the R152X variant.
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ABCA4 p.Arg152* 15161829:90:94
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96 A single STGD-associated haplotype was identified for the (1) L2027F sequence variant, in two unrelated families; (2) V256splice variant, in two unrelated families; (3) R152X variant, three unrelated families; (4) 2588G3C variant, in one family; (5) F1440S variant, in one family; and (6) IVS45ϩ7G3A variant, in one family.
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ABCA4 p.Arg152* 15161829:96:169
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119 The C1490Y sequence variant was the most common disease-associated variant identified in this study (19/64; 30%), followed by the L2027F (8/64; 13%), the R602W variant (6/64; 9%), the V256splice variant (5/64; 8%), and the 2588G3C and R152X sequence variants occurred at equal frequencies (4/64; 6%).
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ABCA4 p.Arg152* 15161829:119:235
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121 Five (C1490Y, L2027F, R602W, V256splice and R152X) of the six common sequence variants identified were at a higher frequency in the SA STGD cohort than in populations from Europe and the United States.
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ABCA4 p.Arg152* 15161829:121:44
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122 Of interest, the C1490Y, R602W, V256splice, and R152X variants were found to be some of the rarer ABCA4 mutations observed in populations of Europe.
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ABCA4 p.Arg152* 15161829:122:48
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125 AO (y) Phenotype Mutation 1 Mutation 2 224.1 9 STGD C1490Y R602W 170.2 10 STGD C1490Y R602W 241.1 9 STGD C1490Y 25883C 448.1 20 STGD C1490Y 2588G3C 113.3 10 STGD C1490Y L2027F 209.1 18 STGD C1490Y L2027F 165.4 10 STGD C1490Y V256splice 166.3 27 STGD C1490Y R152X 151.4 5 STGD C1490Y ND 219.1 5 (rapid clinical progression was observed by 9 years) STGD C1490Y ND 223.1 9 STGD C1490Y ND 307.1 9 STGD C1490Y ND 319.3 9 STGD C1490Y ND 385.1 10 STGD C1490Y ND 226.1 10 STGD C1490Y ND 142.2 10 STGD C1490Y ND 273.1 11 STGD C1490Y ND 382.1 12 STGD C1490Y ND 449.1 14 STGD C1490Y ND 344.2 ND STGD C1490Y ND 374.1 10 STGD L2027F 6352⌬A† 305.1 18 STGD L2027F R2038W 377.1 25 STGD L2027F R2038W 276.1 27 STGD L2027F R212C 204.4 8 STGD L2027F ND 135.4 13 STGD L2027F ND 446.1 9 STGD R602W ND 109.3 11 STGD R602W ND 110.7 13 STGD R602W ND 438.3 12 STGD R602W ND 123.1 9 STGD V256splice R152X 105.1* 10 STGD AND atypical RP V256splice R152X 24 129.3* 10 (rapid clinical progression was observed) STGD V256splice ND 163.22 10 STGD V256splice ND 173.1 8 STGD 2588G3C ND 9.4 27 STGD 2588G3C R152X 330.2 29 STGD R152Q V989A 372.1 31 STGD R1443H† R2030X 141.3 11 STGD F1440S IVS45ϩ7G3A (splice site mutation) 206.3 ND STGD V1693I ND Rows are arranged according to the age of onset (AO) starting with the earliest AO for the most common sequence variant.
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ABCA4 p.Arg152* 15161829:125:257
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ABCA4 p.Arg152* 15161829:125:887
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ABCA4 p.Arg152* 15161829:125:935
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ABCA4 p.Arg152* 15161829:125:1088
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133 This study presents further supporting evidence that mutations such as R152X and V256splice variants within ABCA4 can cause recessive panretinal degeneration, which is typified by changes in the clinical presentation from STGD to a more severe arRP phenotype over time.32 Individual 105.1 was heterozygous for two different mutations: the V256splice variant and the R152X sequence variant.
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ABCA4 p.Arg152* 15161829:133:71
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ABCA4 p.Arg152* 15161829:133:366
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134 The R152X change has been associated with a mild clinical phenotype of fundus flavimaculatus, which has a late AO and a slow progressive clinical phenotype.13,33 In this study, the R152X sequence variant is associated with an earlier AO (Ͻ28 years) than the published data of 70 and 52 years.
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ABCA4 p.Arg152* 15161829:134:4
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ABCA4 p.Arg152* 15161829:134:181
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136 Without in vitro functional analyses of the effects of these two mutations (R152X and V256splice) on the ABCA4 protein, it is difficult to predict accurately whether both variants contribute TABLE 4.
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ABCA4 p.Arg152* 15161829:136:76
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137 The 10 ABCA4 Disease-Associated Haplotypes Identified in the 10 STGD Families Investigated Family D1S188 Marker ABCA4 MutationD1S406 D1S236 166 14 6 12 C1490Y 170 15 4 9 C1490Y 151 15 4 9 C1490Y 204 9 5 14 L2027F 135 9 5 14 L2027F 105 8 4 14 V256splice 129 8 4 14 V256splice 170 10 5 12 R602W 110 16 6 3 R602W 9 7 5 14 2588G3C 9 16 5 4 R152X 105 16 5 4 R152X 166 16 5 4 R152X 141 8 3 6 F1440S 141 9 5 14 IVS45ϩ7G3A The numbers in column 1 denote the identity number of the family.
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ABCA4 p.Arg152* 15161829:137:336
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ABCA4 p.Arg152* 15161829:137:353
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ABCA4 p.Arg152* 15161829:137:370
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146 However, the findings of the present investigation suggest that the V256splice variant and the R152X variant both affected the ABCA4 protein function severely and that this could explain the severe clinical phenotype.
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ABCA4 p.Arg152* 15161829:146:95
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PMID: 11379881 [PubMed] Yatsenko AN et al: "Late-onset Stargardt disease is associated with missense mutations that map outside known functional regions of ABCR (ABCA4)."
No. Sentence Comment
65 Allele 1 nucleotide Amino acid Allele 2 Amino acid Age of change nucleotide change onset (years) AR129-08 37 AR140-01 6079C→T L2027F 3322C→T R1108C 36 AR204-04 35 AR280-03 6316C→T R2106C 6710insA T2237fs 35 AR311-04 4462T→C C1488R 35 AR336-03 2588G→C G863A 5898+1G→A E1966splice 39 AR343-06 2588G→C G863A 3322C→T R1108C 43 AR387-03 4919G→A R1640Q 2971G→C G991R 40 AR410-04 768G→T V256splice 3113C→T A1038V 38 AR440-03 6238-6239del2 bp S2080fs 44 AR448-01a 454C→T R152X 6089G→A R2030Q 52 AR452-04 2005-2006del2 bp M669fs 6089G→A R2030Q 40 AR455-05 [1622T→C;3113C→T] [L541P;A1038V] 43 AR474-02 36 AR516-01a 5196+1G→A I1732splice 3113C→T A1038V 47 AR518-03 3322C→T R1108C 35 AR540-01a 4685T→C I1562T 51 AR594-02a 5196+1G→A I1732splice 36 AR606-04 3322C→T R1108C 2588G→C G863A 39 AR608-02 1025-1038del14 bp D342fs 40 AR617-03 2827C→T R943W 39 AR632-02a 3386G→T R1129L 50 AR649-03 3303G→A W1101X 3113C→T A1038V 36 AR662-02a 1015T→G W339G 50 AR723-01a 3602T→G L1201R 65 Fig.1 Pedigrees of late-onset Stargardt disease families (filled symbols STGD1-affected individuals).
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ABCA4 p.Arg152* 11379881:65:554
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79 Of note, subject AR448-01 with onset of STGD1 at 52 years was a compound heterozygote for the nonsense allele R152X and missense allele R2030Q.
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ABCA4 p.Arg152* 11379881:79:110
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80 The truncated R152X (454C→T) allele has been reported previously in the heterozygous state in one AMD patient (Zhang et al. 1999), one dominant STGD family (Zhang et al. 1999), and one late-onset STGD1/FFM patient (Souied et al. 1999b).
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ABCA4 p.Arg152* 11379881:80:14
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143 In addition, evidence for modifier gene effects on ABCR has been suggested recently in a family with dominant STGD1 linked to chromosome 6q and in which some members are reported to carry an ABCR nonsense mutation, R152X (Zhang et al. 1999).
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ABCA4 p.Arg152* 11379881:143:215
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PMID: 10958763 [PubMed] Rivera A et al: "A comprehensive survey of sequence variation in the ABCA4 (ABCR) gene in Stargardt disease and age-related macular degeneration."
No. Sentence Comment
80 Nucleotide alterations occurring in sim- Table 2 ABCA4 Mutations Found in Patients with STGD and AMD and in Controls EXON AND NUCLEOTIDE CHANGE EFFECT NO. OF ALLELES REFERENCE(S) STGD (288) AMD (400) Control (440) 3: 178GrA A60T 1 0 0 This study 179CrT A60E 1 0 0 This study 194GrA G65E 1 0 0 Fishman et al. (1999) 203CrT P68L 1 0 0 This study 214GrA G72R 1 0 0 This study 296insA Frameshift 2 0 0 This study 5: 454CrT R152X 1 0 0 This study 6: 634CrT R212C 1 0 0 Lewis et al. (1999) 688TrA C230S 1 0 0 This study 730delCT Frameshift 1 0 0 This study 740ArG N247S 1 0 0 This study 768GrT Splice 2 0 0 Maugeri et al. (1999) 8: 983ArT E328V 1a 0 0 This study 1086TrA Y362X 1 0 0 This study 10: 1317GrA W438X 1 0 0 This study 11: 1411GrA E471K 1 0 0 Lewis et al. (1999) 12: 1622TrC L541P 21a 1a 0 Rozet et al. (1998), Fishman et al. (1999), Lewis et al. (1999), Maugeri et al. (1999) 1715GrA R572Q 1a 0 0 Lewis et al. (1999) 13: 1819GrA G607R 1 0 0 This study 1903CrA Q635K 2a 0 0 This study 1903CrT Q635X 1 0 0 This study IVS13ϩ1GrA Splice 2 0 0 This study 14: 1957CrT R653C 1 0 0 This study 1988GrA W663X 1 0 0 This study 2041CrT R681X 4 0 0 Maugeri et al. (1999) 15: 2291GrA C764Y 1 0 0 This study 2292delT Frameshift 1a 0 0 This study 2295TrG S765R 1a 0 0 This study 16: 2564GrA W855X 1 0 0 Nasonkin et al. (1998) 17: 2588GrC Spliceb 17a 6 5 Allikmets et al. (1997a), Cremers et al. (1998), Lewis et al. (1999), Maugeri et al. (1999), Papaioannou et al. (2000) 18: 2701ArG T901A 0 2 0 This study 2741ArG H914A 0 0 1 This study 19: 2876CrT T959I 1 0 0 This study 20: IVS20ϩ5GrA Splice 1 0 0 This study 21: 3106GrA E1036K 1a 0 0 Nasonkin et al. (1998) 3113CrT A1038V 26a 4a 1 Allikmets et al. (1997a), Cremers et al. (1998), Rozet et al. (1998), Fishman et al. (1999), Lewis et al. (1999), Maugeri et al. (1999) T3187TrC S1063P 1 0 0 This study (Continued) 805 Table 2 Continued EXON AND NUCLEOTIDE CHANGE EFFECT NO. OF ALLELES REFERENCE(S) STGD (288) AMD (400) Control (440) 22: 3292CrT R1097C 1 0 0 This study 3322CrT R1108C 4 0 0 Rozet et al. (1998), Fishman et al. (1999), Lewis et al. (1999) 24: 3528insTGCA Frameshift 1 0 0 This study 25: 3808GrT E1270X 1 0 0 This study 27: 3898CrT R1300X 1 0 0 This study 28: IVS28ϩ5GrA Splice 1 0 0 This study 4139CrT P1380L 1 0 0 Lewis et al. (1999) 4195GrA E1399K 2 0 0 This study 4234CrT Q1412X 4 0 0 Maugeri et al. (1999) 29: 4289TrC L1430P 2 0 0 This study 4318TrG F1440V 1 0 0 This study 4328GrA R1443H 1 0 0 This study 30: 4457CrT P1486L 1 0 0 Lewis et al. (1999) 4463GrA C1488Y 1 0 0 This study 31: 4610CrT T1537M 1 0 0 This study 35: IVS35ϩ2TrA Splice 1 0 0 This study 36: 5065TrC S1689P 1 0 0 This study 5114GrT R1705L 1 0 0 This study IVS36ϩ1GrA Splice 1 0 0 This study 37: 5198TrC M1733T 0 0 1 This study 5242GrA G1748R 1 0 0 This study 5248CrT Q1750X 1 0 0 This study 5288TrC L1763P 1 0 0 This study 38: IVS38ϩ1GrA Splice 1 0 0 This study 40: 5653GrA E1885K 1 0 0 This study 5693GrA R1898H 5 2 1 Allikmets et al. (1997b), Lewis et al. (1999) IVS40ϩ5GrA Splice 8a 0 0 Cremers et al. (1998), Lewis et al. (1999), Maugeri et al. (1999) 42: 5882GrA G1961E 34 4 2 Allikmets et al. (1997b), Fishman et al. (1999), Lewis et al. (1999), Maugeri et al. (1999) 43: 5917delG Frameshift 3 0 0 This study 5923GrC G1975R 1 0 0 This study 5929GrA G1977S 1 0 0 Rozet et al. (1998), Lewis et al. (1999) 45: 6229CrG R2077G 1 0 0 This study 6229CrT R2077W 1 0 0 Allikmets et al. (1997a), Fishman et al. (1999), Lewis et al. (1999) 48: 6609CrA Y2203X 2 0 0 This study 6647GrT A2216V 0 0 1 This study a Mutation pairs occurring on a single haplotype.
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ABCA4 p.Arg152* 10958763:80:421
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PMID: 10486215 [PubMed] Zhang K et al: "The ABCR gene in recessive and dominant Stargardt diseases: a genetic pathway in macular degeneration."
No. Sentence Comment
4 One allele of the ABCR gene was shown to carry a stop codon-generating mutation (R152X) in three family members, including the one patient who had inherited also the dominant gene.
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ABCA4 p.Arg152* 10486215:4:81
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36 This substitution creates a stop codon (R152X) in exon 5 of ABCR and, therefore, inactivates one allele of the gene.
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ABCA4 p.Arg152* 10486215:36:40
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41 The identification of the R152X mutation in the AMD patient further supports the role of ABCR in predisposing patients to AMD in the heterozygous state.
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ABCA4 p.Arg152* 10486215:41:26
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54 Segregation of the ABCR R152X variant in this pedigree is shown below as detected by SSCP analysis.
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ABCA4 p.Arg152* 10486215:54:24
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PMID: 24550365 [PubMed] Huang WC et al: "Inner and outer retinal changes in retinal degenerations associated with ABCA4 mutations."
No. Sentence Comment
74 Characteristics of the ABCA4-Related Retinal Disease Patients Patient Age at Visits, y Sex Allele 1 Allele 2 Previous Report*ߤ P1 9, 12 M E341G F608I P2 9, 15 M R681X C2150Y P28* P3ߥ 12 M N965S W821R P1ߤ P4 13, 16 M V256V T1526M P21*, P15ߤ P5 14, 20 F W1408R IVS40&#fe;5 G>A P49* P6ߥ 16 F V989A IVS28&#fe;5 G>T P17ߤ P7ߥ 16 M N965S W821R P18ߤ P8 18, 20 F Y362X IVS38-10 T>C P9ߥ 18 F V989A IVS28&#fe;5 G>T P10 18, 22 M G1961E R1129L P3ߤ P11 20 M R1640Q c.5174_5175insG P12ߥ 20 M G1961E G1961E/P68L P13 22, 25 M G863A IVS35&#fe;2 T>C P20ߤ P14 22, 24 F G1961E R152X P12*, P21ߤ P15ߥ 23 M G1961E G1961E/P68L P16 25, 27 M G1961E R152X P11* P17 26, 32 F L1940P R1129L P64* P18 27, 34 F R1925G A1038V/L541P P19 27, 29 M c.4530_4531insC R1705Q P52*, P5ߤ P20 28, 30 F G1961E A1038V/L541P P23ߤ P21 31, 35 M T1019M G1961E P34* P22ߥ 32, 37 M P1486L Deletion of exon 7 P25ߤ P23 33, 35 M G863A R1108C P29*, P6ߤ P24 34, 37 F IVS40&#fe;5 G>A V935A P32*, P7ߤ P25 34 M G1961E &#a7; P8ߤ P26 37, 43 F C54Y G863A P4* P27 39, 44 F G863A C1490Y P30*, P26ߤ P28 40 M G1961E C54Y P7*, P10ߤ P29 41 F IVS38-10 T>C E1087D P59* P30ߥ 43, 47 F G1961E V256V P23*, P11ߤ P31ߥ 47, 51 F P1486L Deletion of exon 7 P32 47 M Y245X Y245X P20* P33ߥ 48, 51 F G1961E V256V P22*, P12ߤ P34 48, 50 F c.3208_3209insTG IVS40&#fe;5 G>A P35 50, 54 M V1433I L2027F P50* P36ߥ 52, 55 F T1526M R2030Q P55*, P28ߤ P37 53, 59 F G1961E P1380L P47*, P13ߤ P38ߥ 53, 61 M L1940P IVS40&#fe;5 G>A P61* P39 58 M D600E R18W P2*, P14ߤ P40 59, 62 M E1122K G1961E P44* P41 59, 62 F R1640Q G1961E P58* P42ߥ 62 F T1526M R2030Q P54* P43ߥ 64, 68 M L1940P IVS40&#fe;5 G>A P62* P44 68 F R1108C IVS40&#fe;5 G>A P42* P45 71 F IVS38-10 T>C &#a7; Novel variants are bold and italicized.
X
ABCA4 p.Arg152* 24550365:74:628
status: NEW
X
ABCA4 p.Arg152* 24550365:74:706
status: NEW
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